Radio Base Station, Mobile Station and Radio Communication Method

1. A radio base station for forming a cell on a moving path of a moving object to communicate with a mobile station provided in the moving object using beam forming, comprising: a transmitter that transmits a plurality of acquisition signals applied with different beam forming weights respectively to at least an edge region of the cell formed on the moving path of the moving object; and a processor that controls a beam forming weight to apply to a data signal transmitted to the mobile station, based on information notified from the mobile station receiving an acquisition signal, wherein the acquisition signal is a signal obtained by combining a sequence for a synchronization signal and a sequence of a reference signal for channel estimation in a Long Term Evolution (LTE) system or a Long Term Evolution-Advanced (LTE-A) system, and wherein the acquisition signal is transmitted in a time slot of a subframe.

2. The radio base station according to claim 1 , wherein the transmitter switches the plurality of acquisition signals applied with different beam forming weights respectively at predetermined intervals to transmit.

3. The radio base station according to claim 2 , wherein the transmitter associates the plurality of acquisition signals applied with different beam forming weights respectively with predetermined time slots to transmit.

4. The radio base station according to claim 3 , further comprising: a processor that selects an acquisition signal for a data signal having a beam forming weight to apply to the data signal, and an acquisition signal for prediction having a possibility that the mobile station next receives, wherein the transmitter transmits the acquisition signal for a data signal and the acquisition signal for prediction respectively in predetermined time slots.

5. The radio base station according to claim 4 , wherein the transmitter performs transmission of the data signal using a time slot in which the acquisition signal for a data signal and the acquisition signal for prediction are not transmitted.

6. The radio base station according to claim 4 , wherein when the mobile station notifies of information on a plurality of acquisition signals, the processor selects a plurality of acquisition signals for data signals and a plurality of acquisition signals for prediction, and the transmitter performs spatial multiplexing on the data signals with different beam forming weights of the acquisition signals for data signals applied to transmit.

7. The radio base station according to claim 4 , wherein when quality information of the acquisition signal for a data signal notified from the mobile station is a predetermined value or less, the processor applies a beam forming weight of the acquisition signal for prediction to a data signal.

8. The radio base station according to claim 2 , further comprising: a processor that selects an acquisition signal for a data signal having a beam forming weight to apply to the data signal, and an acquisition signal for prediction having a possibility that the mobile station next receives, wherein the transmitter transmits the acquisition signal for a data signal and the acquisition signal for prediction respectively in predetermined time slots.

9. The radio base station according to claim 8 , wherein the transmitter performs transmission of the data signal using a time slot in which the acquisition signal for a data signal and the acquisition signal for prediction are not transmitted.

10. The radio base station according to claim 8 , wherein when the mobile station notifies of information on a plurality of acquisition signals, the processor selects a plurality of acquisition signals for data signals and a plurality of acquisition signals for prediction, and the transmitter performs spatial multiplexing on the data signals with different beam forming weights of the acquisition signals for data signals applied to transmit.

11. The radio base station according to claim 8 , wherein when quality information of the acquisition signal for a data signal notified from the mobile station is a predetermined value or less, the processor applies a beam forming weight of the acquisition signal for prediction to a data signal.

12. The radio base station according to claim 1 , further comprising: a processor that selects an acquisition signal for a data signal having a beam forming weight to apply to the data signal, and an acquisition signal for prediction having a possibility that the mobile station next receives, wherein the transmitter transmits the acquisition signal for a data signal and the acquisition signal for prediction respectively in predetermined time slots.

13. The radio base station according to claim 12 , wherein the transmitter performs transmission of the data signal using a time slot in which the acquisition signal for a data signal and the acquisition signal for prediction are not transmitted.

14. The radio base station according to claim 12 , wherein when the mobile station notifies of information on a plurality of acquisition signals, the processor selects a plurality of acquisition signals for data signals and a plurality of acquisition signals for prediction, and the transmitter performs spatial multiplexing on the data signals with different beam forming weights of the acquisition signals for data signals applied to transmit.

15. The radio base station according to claim 12 , wherein when quality information of the acquisition signal for a data signal notified from the mobile station is a predetermined value or less, the processor applies a beam forming weight of the acquisition signal for prediction to a data signal.

16. A mobile station provided in a moving object to communicate with a radio base station for forming a cell on a mobile path of the moving object using beam forming, comprising: a receiver that receives an acquisition signal and a data signal transmitted from the radio base station; and a transmitter that transmits information on a received acquisition signal, wherein the receiver receives an acquisition signal having a beam forming weight to apply to a data signal, and an acquisition signal for prediction having a possibility of receiving next, as the acquisition signal, wherein the acquisition signal is a signal obtained by combining a sequence for a synchronization signal and a sequence of a reference signal for channel estimation in a Long Term Evolution (LTE) system or a Long Term Evolution-Advanced (LTE-A) system, and wherein the acquisition signal is received in a time slot of a subframe.

17. A radio communication method of a radio base station for forming a cell on a moving path of a moving object and a mobile station provided in the moving object, comprising: in the radio base station, transmitting a plurality of acquisition signals applied with different beam forming weights respectively to at least an edge region of the cell formed on the moving path of the moving object; controlling a beam forming weight to apply to a data signal transmitted to the mobile station, based on information notified from the mobile station receiving an acquisition signal; in the mobile station, receiving an acquisition signal and a data signal transmitted from the radio base station; and transmitting information on a received acquisition signal, wherein the acquisition signal is a signal obtained by combining a sequence for a synchronization signal and a sequence of a reference signal for channel estimation in a Long Term Evolution (LTE) system or a Long Term Evolution-Advanced (LTE-A) system, and wherein the acquisition signal is transmitted in a time slot of a subframe.